1. Home
  2. Ekonomi & Keuangan

Rancangan sebuah bangunan tinggi untuk p (2)

LAMPIRAN I
SIGN CONVENTION
Normal Axis 3

Local axis 3 is always normal to the plane of the shell element. This axis is
directed towards you when the path j1-j2-j3 appears counter-clockwise. For
quadrilateral elements, the element plane is defined by the vectors that
connect the mid-points of the two pairs of opposite sides.
Default Orientation

The default orientation of the local 1 and 2 axes is determined by the
relationship between the local 3 axis and the global Z axis:
ƒ
ƒ

ƒ

The local 3-2 plane is taken to be vertical, i.e., parallel to the Z axis
The local 2 axis is taken to have an upward (+Z) sense unless the element
is horizontal, in which case the local 2 axis is taken along the global +Y
direction

The local 1 axis is horizontal, i.e., it lies in the X-Y plane

The element is considered to be horizontal if the sine of the angle between the
local 3 axis and the Z axis is less than 10-3.
The local 2 axis makes the same angle with the vertical axis as the local 3 axis
makes with the horizontal plane. This means that the local 2 axis points
vertically upward for vertical elements.
Element Coordinate Angle

The shell element coordinate angle, ang, is used to define element orientations
that are different from the default orientation. It is the angle through which the
local 1 and 2 axes are rotated about the positive local 3 axis from the default
orientation. The rotation for a positive angle value of ang appears counterclockwise when the local +3 axis is pointing toward you.For horizontal
elements, ang is the angle between the local 2 axis and the horizontal +Y axis.
Otherwise, ang is the angle between the local 2 axis and the vertical plane
containing the local 3 axis. The following figures provide examples.

107
Universitas Sumatera Utara


See Also: Von Mises Stress

108
Universitas Sumatera Utara

109
Universitas Sumatera Utara

110
Universitas Sumatera Utara

111
Universitas Sumatera Utara

LAMPIRAN II
OUT PUT SAP 2000 ELEMEN SEGITIGA
SAP2000 Advanced Version 10.0.1.0 (Analysis Build 8499)
File: ...core-2-sel-SegiTiga-s-elemen 1m\TA-core-2-sel-SegiTiga-selemen 1m.LOG
B E G I N


A N A L Y S I S

2008/03/26

MAXIMUM MEMORY BLOCK SIZE (BYTES)

=

127.938 MB

NUMBER OF JOINTS IN THE MODEL

=

1075

=
=

2112

49

REDUCTION OF CONSTRAINTS AND RESTRAINTS:
NUMBER OF
CONSTRAINT MASTER DOF BEFORE REDUCTION =
COUPLED CONSTRAINT/RESTRAINT MASTER DOF =
CONSTRAINT MASTER DOF AFTER REDUCTION
=

75
3
72

E L E M E N T

F O R M A T I O N

NUMBER OF SHELL ELEMENTS FORMED
NUMBER OF CONSTRAINTS FORMED


L I N E A R

E Q U A T I O N

S O L U T I O N

FORMING STIFFNESS AT ZERO (UNSTRESSED) INITIAL CONDITIONS
TOTAL NUMBER OF EQUILIBRIUM EQUATIONS
NUMBER OF NON-ZERO STIFFNESS TERMS

=
=

3168
61146

NUMBER OF EIGENVALUES BELOW SHIFT

=


0

L I N E A R

S T A T I C

C A S E S

USING STIFFNESS AT ZERO (UNSTRESSED) INITIAL CONDITIONS
TOTAL NUMBER OF CASES TO SOLVE
NUMBER OF CASES TO SOLVE PER BLOCK

=
=

1
1

LINEAR STATIC CASES TO BE SOLVED:
CASE: DEAD

A N A L Y S I S

C O M P L E T E

2008/03/26

112
Universitas Sumatera Utara

LAMPIRAN III
OUT PUT SAP 2000 ELEMEN SEGIEMPAT
SAP2000 Advanced Version 10.0.1.0 (Analysis Build 8499)
File: ...A-core-2-sel-SegiEmpat-elemen 1m\TA-core-2-sel-SegiEmpatelemen 1m.LOG

B E G I N

A N A L Y S I S

2008/03/26


MAXIMUM MEMORY BLOCK SIZE (BYTES)

=

127.938 MB

NUMBER OF JOINTS IN THE MODEL

=

1075

=
=

1056
49

REDUCTION OF CONSTRAINTS AND RESTRAINTS:
NUMBER OF

CONSTRAINT MASTER DOF BEFORE REDUCTION =
COUPLED CONSTRAINT/RESTRAINT MASTER DOF =
CONSTRAINT MASTER DOF AFTER REDUCTION
=

75
3
72

E L E M E N T

F O R M A T I O N

NUMBER OF SHELL ELEMENTS FORMED
NUMBER OF CONSTRAINTS FORMED

L I N E A R

E Q U A T I O N


S O L U T I O N

FORMING STIFFNESS AT ZERO (UNSTRESSED) INITIAL CONDITIONS
TOTAL NUMBER OF EQUILIBRIUM EQUATIONS
NUMBER OF NON-ZERO STIFFNESS TERMS

=
=

3168
70254

NUMBER OF EIGENVALUES BELOW SHIFT

=

0

L I N E A R


S T A T I C

C A S E S

USING STIFFNESS AT ZERO (UNSTRESSED) INITIAL CONDITIONS
TOTAL NUMBER OF CASES TO SOLVE
NUMBER OF CASES TO SOLVE PER BLOCK

=
=

1
1

LINEAR STATIC CASES TO BE SOLVED:
CASE: DEAD
A N A L Y S I S

C O M P L E T E

2008/03/26

113
Universitas Sumatera Utara

Lampiran IV
Torsi Di Core Sebelah Kanan (Vektor Arah Keatas)

Gambar : Model 3D

114
Universitas Sumatera Utara

Gambar : Model 2D

115
Universitas Sumatera Utara

Gambar : S12 Shell Tengah Bidang Pendek

116
Universitas Sumatera Utara

Gambar : S12 Shell Kiri Bidang Pendek

117
Universitas Sumatera Utara

Gambar : S12 Shell Kanan Bidang Pendek

118
Universitas Sumatera Utara

Gambar : S12 Shell Depan Bidang Panjang

119
Universitas Sumatera Utara

Gambar : S12 Shell Belakang Bidang Panjang

120
Universitas Sumatera Utara

Lampiran V
Torsi Di Core Sebelah Kiri (Vektor Arah Ke Bawah)

Gambar : Model 3D

121
Universitas Sumatera Utara

Gambar : Model 2D

122
Universitas Sumatera Utara

Gambar : S12 Shell Tengah Bidang Pendek

123
Universitas Sumatera Utara

Gambar : S12 Shell Kiri Bidang Pendek

124
Universitas Sumatera Utara

Gambar : S12 Shell Kanan Bidang Pendek

125
Universitas Sumatera Utara

Gambar : S12 Shell Depan Bidang Panjang

126
Universitas Sumatera Utara

Gambar : S12 Shell Belakang Bidang Panjang

127
Universitas Sumatera Utara

LAMPIRAN VI
Torsi Di Kedua Core (Vektor Berlawanan Arah)

Gambar : Model 3D

128
Universitas Sumatera Utara

Gambar : Model 2D

129
Universitas Sumatera Utara

Gambar : S12 Shell Tengah Bidang Pendek

130
Universitas Sumatera Utara

Gambar : S12 Shell Kiri Bidang Pendek

131
Universitas Sumatera Utara

Gambar : S12 Shell Kanan Bidang Pendek

132
Universitas Sumatera Utara

Gambar : S12 Shell Depan Bidang Panjang

133
Universitas Sumatera Utara

Gambar : S12 Shell Belakang Bidang Panjang

134
Universitas Sumatera Utara

LAMPIRAN VII
Torsi Di Kedua Core (Vektor Searah Ke Bawah )

Gambar : Model 3D

135
Universitas Sumatera Utara

Gambar : Model 2D

136
Universitas Sumatera Utara

Gambar : S12 Shell Tengah Bidang Pendek

137
Universitas Sumatera Utara

Gambar : S12 Shell Kiri Bidang Pendek

138
Universitas Sumatera Utara

Gambar : S12 Shell Kanan Bidang Pendek

139
Universitas Sumatera Utara

Gambar : S12 Shell Depan Bidang Panjang

140
Universitas Sumatera Utara

Gambar : S12 Shell Belakang Bidang Panjang

141
Universitas Sumatera Utara

Dokumen yang terkait

Anal isi s L e ve l Pe r tanyaan p ad a S oal Ce r ita d alam B u k u T e k s M at e m at ik a Pe n u n jang S MK Pr ogr a m Keahl ian T e k n ologi , Kese h at an , d an Pe r tani an Kelas X T e r b itan E r lan gga B e r d asarkan T ak s on om i S OL O

2 99 16

Analisis terhadap hapusnya hak usaha akibat terlantarnya lahan untuk ditetapkan menjadi obyek landreform (studi kasus di desa Mojomulyo kecamatan Puger Kabupaten Jember

1 88 63

IbM Pemanfaatan Biopestisida untuk Mengendalikan Hama Uret (Lepidiota stigma) Pada Tanaman Tebu

8 129 1

Pengembangan jaringan wireless untuk menggantikan manual download pada vehicle health monitoring system di PT. Saptaindra sejati

10 113 231

Upaya mengurangi kecemasan belajar matematika siswa dengan penerapan metode diskusi kelompok teknik tutor sebaya: sebuah studi penelitian tindakan di SMP Negeri 21 Tangerang

26 227 88

Aplikasi sistem pakar untuk mendiagnosa penyakit pada pencernaan manusia

8 56 249

Dampak konsensus Washington dan ratifikasi gats terhadap kebijakan pendidikan tinggi di Indonesia studi kasus : undang- undang pendidikan tinggi no. 12 tahun 2012

0 66 212

Jaringan informasi perpustakaan perguruan tinggi

1 106 11

Aplikasi forecasting untuk memprediksi kepadatan penduduk di Dinas Kependudkan dan Catatan Sipil Kabupaten Aceh Timur

9 92 261

Rancangan media informasi tentang makanan tradisional Peyeum Bandung

5 77 1